A narrative review on characterization of acute respiratory distress syndrome in COVID-19-infected lungs using artificial intelligence

Jasjit S. Suri; Sushant Agarwal; Suneet K. Gupta; Anudeep Puvvula; Mainak Biswas; Luca Saba; Arindam Bit; Gopal S. Tandel; Mohit Agarwal; Anubhav Patrick; Gavino Faa; Inder M. Singh; Ronald Oberleitner; Monika Turk; Paramjit S. Chadha; Amer M. Johri; J. Miguel Sanches; Narendra N. Khanna; Klaudija Viskovic; Sophie Mavrogeni; John R. Laird; Gyan Pareek; Martin Miner; David W. Sobel; Antonella Balestrieri; Petros P. Sfikakis; George Tsoulfas; Athanasios Protogerou; Durga Prasanna Misra; Vikas Agarwal; George D. Kitas; Puneet Ahluwalia; Jagjit Teji; Mustafa Al-Maini; Surinder K. Dhanjil; Meyypan Sockalingam; Ajit Saxena; Andrew Nicolaides; Aditya Sharma; Vijay Rathore; Janet N.A. Ajuluchukwu; Mostafa Fatemi; Azra Alizad; Vijay Viswanathan; P. K. Krishnan; Subbaram Naidu

doi:10.1016/j.compbiomed.2021.104210

A narrative review on characterization of acute respiratory distress syndrome in COVID-19-infected lungs using artificial intelligence

Jasjit S. Suri, Sushant Agarwal, Suneet K. Gupta, Anudeep Puvvula, Mainak Biswas, Luca Saba, Arindam Bit, Gopal S. Tandel, Mohit Agarwal, Anubhav Patrick, Gavino Faa, Inder M. Singh, Ronald Oberleitner, Monika Turk, Paramjit S. Chadha, Amer M. Johri, J. Miguel Sanches, Narendra N. Khanna, Klaudija Viskovic, Sophie MavrogeniJohn R. Laird, Gyan Pareek, Martin Miner, David W. Sobel, Antonella Balestrieri, Petros P. Sfikakis, George Tsoulfas, Athanasios Protogerou, Durga Prasanna Misra, Vikas Agarwal, George D. Kitas, Puneet Ahluwalia, Jagjit Teji, Mustafa Al-Maini, Surinder K. Dhanjil, Meyypan Sockalingam, Ajit Saxena, Andrew Nicolaides, Aditya Sharma, Vijay Rathore, Janet N.A. Ajuluchukwu, Mostafa Fatemi, Azra Alizad, Vijay Viswanathan, P. K. Krishnan, Subbaram Naidu

Physiology & Biomedical Engineering

Research output: Contribution to journal › Review article › peer-review

Abstract

COVID-19 has infected 77.4 million people worldwide and has caused 1.7 million fatalities as of December 21, 2020. The primary cause of death due to COVID-19 is Acute Respiratory Distress Syndrome (ARDS). According to the World Health Organization (WHO), people who are at least 60 years old or have comorbidities that have primarily been targeted are at the highest risk from SARS-CoV-2. Medical imaging provides a non-invasive, touch-free, and relatively safer alternative tool for diagnosis during the current ongoing pandemic. Artificial intelligence (AI) scientists are developing several intelligent computer-aided diagnosis (CAD) tools in multiple imaging modalities, i.e., lung computed tomography (CT), chest X-rays, and lung ultrasounds. These AI tools assist the pulmonary and critical care clinicians through (a) faster detection of the presence of a virus, (b) classifying pneumonia types, and (c) measuring the severity of viral damage in COVID-19-infected patients. Thus, it is of the utmost importance to fully understand the requirements of for a fast and successful, and timely lung scans analysis. This narrative review first presents the pathological layout of the lungs in the COVID-19 scenario, followed by understanding and then explains the comorbid statistical distributions in the ARDS framework. The novelty of this review is the approach to classifying the AI models as per the by school of thought (SoTs), exhibiting based on segregation of techniques and their characteristics. The study also discusses the identification of AI models and its extension from non-ARDS lungs (pre-COVID-19) to ARDS lungs (post-COVID-19). Furthermore, it also presents AI workflow considerations of for medical imaging modalities in the COVID-19 framework. Finally, clinical AI design considerations will be discussed. We conclude that the design of the current existing AI models can be improved by considering comorbidity as an independent factor. Furthermore, ARDS post-processing clinical systems must involve include (i) the clinical validation and verification of AI-models, (ii) reliability and stability criteria, and (iii) easily adaptable, and (iv) generalization assessments of AI systems for their use in pulmonary, critical care, and radiological settings.

Original language	English (US)
Article number	104210
Journal	Computers in Biology and Medicine
Volume	130
DOIs	https://doi.org/10.1016/j.compbiomed.2021.104210
State	Published - Mar 2021

Keywords

ARDS
Artificial intelligence
COVID-19
CT
Comorbidity
Deep learning
Machine learning
Medical imaging
Transfer learning
US
Ultrasound
X-ray

ASJC Scopus subject areas

Health Informatics
Computer Science Applications

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10.1016/j.compbiomed.2021.104210

Cite this

Suri, J. S., Agarwal, S., Gupta, S. K., Puvvula, A., Biswas, M., Saba, L., Bit, A., Tandel, G. S., Agarwal, M., Patrick, A., Faa, G., Singh, I. M., Oberleitner, R., Turk, M., Chadha, P. S., Johri, A. M., Miguel Sanches, J., Khanna, N. N., Viskovic, K., ... Naidu, S. (2021). A narrative review on characterization of acute respiratory distress syndrome in COVID-19-infected lungs using artificial intelligence. Computers in Biology and Medicine, 130, Article 104210. https://doi.org/10.1016/j.compbiomed.2021.104210

Suri, JS, Agarwal, S, Gupta, SK, Puvvula, A, Biswas, M, Saba, L, Bit, A, Tandel, GS, Agarwal, M, Patrick, A, Faa, G, Singh, IM, Oberleitner, R, Turk, M, Chadha, PS, Johri, AM, Miguel Sanches, J, Khanna, NN, Viskovic, K, Mavrogeni, S, Laird, JR, Pareek, G, Miner, M, Sobel, DW, Balestrieri, A, Sfikakis, PP, Tsoulfas, G, Protogerou, A, Misra, DP, Agarwal, V, Kitas, GD, Ahluwalia, P, Teji, J, Al-Maini, M, Dhanjil, SK, Sockalingam, M, Saxena, A, Nicolaides, A, Sharma, A, Rathore, V, Ajuluchukwu, JNA, Fatemi, M , Alizad, A, Viswanathan, V, Krishnan, PK & Naidu, S 2021, 'A narrative review on characterization of acute respiratory distress syndrome in COVID-19-infected lungs using artificial intelligence', Computers in Biology and Medicine, vol. 130, 104210. https://doi.org/10.1016/j.compbiomed.2021.104210

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title = "A narrative review on characterization of acute respiratory distress syndrome in COVID-19-infected lungs using artificial intelligence",

abstract = "COVID-19 has infected 77.4 million people worldwide and has caused 1.7 million fatalities as of December 21, 2020. The primary cause of death due to COVID-19 is Acute Respiratory Distress Syndrome (ARDS). According to the World Health Organization (WHO), people who are at least 60 years old or have comorbidities that have primarily been targeted are at the highest risk from SARS-CoV-2. Medical imaging provides a non-invasive, touch-free, and relatively safer alternative tool for diagnosis during the current ongoing pandemic. Artificial intelligence (AI) scientists are developing several intelligent computer-aided diagnosis (CAD) tools in multiple imaging modalities, i.e., lung computed tomography (CT), chest X-rays, and lung ultrasounds. These AI tools assist the pulmonary and critical care clinicians through (a) faster detection of the presence of a virus, (b) classifying pneumonia types, and (c) measuring the severity of viral damage in COVID-19-infected patients. Thus, it is of the utmost importance to fully understand the requirements of for a fast and successful, and timely lung scans analysis. This narrative review first presents the pathological layout of the lungs in the COVID-19 scenario, followed by understanding and then explains the comorbid statistical distributions in the ARDS framework. The novelty of this review is the approach to classifying the AI models as per the by school of thought (SoTs), exhibiting based on segregation of techniques and their characteristics. The study also discusses the identification of AI models and its extension from non-ARDS lungs (pre-COVID-19) to ARDS lungs (post-COVID-19). Furthermore, it also presents AI workflow considerations of for medical imaging modalities in the COVID-19 framework. Finally, clinical AI design considerations will be discussed. We conclude that the design of the current existing AI models can be improved by considering comorbidity as an independent factor. Furthermore, ARDS post-processing clinical systems must involve include (i) the clinical validation and verification of AI-models, (ii) reliability and stability criteria, and (iii) easily adaptable, and (iv) generalization assessments of AI systems for their use in pulmonary, critical care, and radiological settings.",

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author = "Suri, {Jasjit S.} and Sushant Agarwal and Gupta, {Suneet K.} and Anudeep Puvvula and Mainak Biswas and Luca Saba and Arindam Bit and Tandel, {Gopal S.} and Mohit Agarwal and Anubhav Patrick and Gavino Faa and Singh, {Inder M.} and Ronald Oberleitner and Monika Turk and Chadha, {Paramjit S.} and Johri, {Amer M.} and {Miguel Sanches}, J. and Khanna, {Narendra N.} and Klaudija Viskovic and Sophie Mavrogeni and Laird, {John R.} and Gyan Pareek and Martin Miner and Sobel, {David W.} and Antonella Balestrieri and Sfikakis, {Petros P.} and George Tsoulfas and Athanasios Protogerou and Misra, {Durga Prasanna} and Vikas Agarwal and Kitas, {George D.} and Puneet Ahluwalia and Jagjit Teji and Mustafa Al-Maini and Dhanjil, {Surinder K.} and Meyypan Sockalingam and Ajit Saxena and Andrew Nicolaides and Aditya Sharma and Vijay Rathore and Ajuluchukwu, {Janet N.A.} and Mostafa Fatemi and Azra Alizad and Vijay Viswanathan and Krishnan, {P. K.} and Subbaram Naidu",

note = "Publisher Copyright: {\textcopyright} 2021 Elsevier Ltd",

year = "2021",

month = mar,

doi = "10.1016/j.compbiomed.2021.104210",

language = "English (US)",

volume = "130",

journal = "Computers in Biology and Medicine",

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T1 - A narrative review on characterization of acute respiratory distress syndrome in COVID-19-infected lungs using artificial intelligence

AU - Suri, Jasjit S.

AU - Agarwal, Sushant

AU - Gupta, Suneet K.

AU - Puvvula, Anudeep

AU - Biswas, Mainak

AU - Saba, Luca

AU - Bit, Arindam

AU - Tandel, Gopal S.

AU - Agarwal, Mohit

AU - Patrick, Anubhav

AU - Faa, Gavino

AU - Singh, Inder M.

AU - Oberleitner, Ronald

AU - Turk, Monika

AU - Chadha, Paramjit S.

AU - Johri, Amer M.

AU - Miguel Sanches, J.

AU - Khanna, Narendra N.

AU - Viskovic, Klaudija

AU - Mavrogeni, Sophie

AU - Laird, John R.

AU - Pareek, Gyan

AU - Miner, Martin

AU - Sobel, David W.

AU - Balestrieri, Antonella

AU - Sfikakis, Petros P.

AU - Tsoulfas, George

AU - Protogerou, Athanasios

AU - Misra, Durga Prasanna

AU - Agarwal, Vikas

AU - Kitas, George D.

AU - Ahluwalia, Puneet

AU - Teji, Jagjit

AU - Al-Maini, Mustafa

AU - Dhanjil, Surinder K.

AU - Sockalingam, Meyypan

AU - Saxena, Ajit

AU - Nicolaides, Andrew

AU - Sharma, Aditya

AU - Rathore, Vijay

AU - Ajuluchukwu, Janet N.A.

AU - Fatemi, Mostafa

AU - Alizad, Azra

AU - Viswanathan, Vijay

AU - Krishnan, P. K.

AU - Naidu, Subbaram

PY - 2021/3

Y1 - 2021/3

N2 - COVID-19 has infected 77.4 million people worldwide and has caused 1.7 million fatalities as of December 21, 2020. The primary cause of death due to COVID-19 is Acute Respiratory Distress Syndrome (ARDS). According to the World Health Organization (WHO), people who are at least 60 years old or have comorbidities that have primarily been targeted are at the highest risk from SARS-CoV-2. Medical imaging provides a non-invasive, touch-free, and relatively safer alternative tool for diagnosis during the current ongoing pandemic. Artificial intelligence (AI) scientists are developing several intelligent computer-aided diagnosis (CAD) tools in multiple imaging modalities, i.e., lung computed tomography (CT), chest X-rays, and lung ultrasounds. These AI tools assist the pulmonary and critical care clinicians through (a) faster detection of the presence of a virus, (b) classifying pneumonia types, and (c) measuring the severity of viral damage in COVID-19-infected patients. Thus, it is of the utmost importance to fully understand the requirements of for a fast and successful, and timely lung scans analysis. This narrative review first presents the pathological layout of the lungs in the COVID-19 scenario, followed by understanding and then explains the comorbid statistical distributions in the ARDS framework. The novelty of this review is the approach to classifying the AI models as per the by school of thought (SoTs), exhibiting based on segregation of techniques and their characteristics. The study also discusses the identification of AI models and its extension from non-ARDS lungs (pre-COVID-19) to ARDS lungs (post-COVID-19). Furthermore, it also presents AI workflow considerations of for medical imaging modalities in the COVID-19 framework. Finally, clinical AI design considerations will be discussed. We conclude that the design of the current existing AI models can be improved by considering comorbidity as an independent factor. Furthermore, ARDS post-processing clinical systems must involve include (i) the clinical validation and verification of AI-models, (ii) reliability and stability criteria, and (iii) easily adaptable, and (iv) generalization assessments of AI systems for their use in pulmonary, critical care, and radiological settings.

AB - COVID-19 has infected 77.4 million people worldwide and has caused 1.7 million fatalities as of December 21, 2020. The primary cause of death due to COVID-19 is Acute Respiratory Distress Syndrome (ARDS). According to the World Health Organization (WHO), people who are at least 60 years old or have comorbidities that have primarily been targeted are at the highest risk from SARS-CoV-2. Medical imaging provides a non-invasive, touch-free, and relatively safer alternative tool for diagnosis during the current ongoing pandemic. Artificial intelligence (AI) scientists are developing several intelligent computer-aided diagnosis (CAD) tools in multiple imaging modalities, i.e., lung computed tomography (CT), chest X-rays, and lung ultrasounds. These AI tools assist the pulmonary and critical care clinicians through (a) faster detection of the presence of a virus, (b) classifying pneumonia types, and (c) measuring the severity of viral damage in COVID-19-infected patients. Thus, it is of the utmost importance to fully understand the requirements of for a fast and successful, and timely lung scans analysis. This narrative review first presents the pathological layout of the lungs in the COVID-19 scenario, followed by understanding and then explains the comorbid statistical distributions in the ARDS framework. The novelty of this review is the approach to classifying the AI models as per the by school of thought (SoTs), exhibiting based on segregation of techniques and their characteristics. The study also discusses the identification of AI models and its extension from non-ARDS lungs (pre-COVID-19) to ARDS lungs (post-COVID-19). Furthermore, it also presents AI workflow considerations of for medical imaging modalities in the COVID-19 framework. Finally, clinical AI design considerations will be discussed. We conclude that the design of the current existing AI models can be improved by considering comorbidity as an independent factor. Furthermore, ARDS post-processing clinical systems must involve include (i) the clinical validation and verification of AI-models, (ii) reliability and stability criteria, and (iii) easily adaptable, and (iv) generalization assessments of AI systems for their use in pulmonary, critical care, and radiological settings.

KW - ARDS

KW - Artificial intelligence

KW - COVID-19

KW - CT

KW - Comorbidity

KW - Deep learning

KW - Machine learning

KW - Medical imaging

KW - Transfer learning

KW - US

KW - Ultrasound

KW - X-ray

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DO - 10.1016/j.compbiomed.2021.104210

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JO - Computers in Biology and Medicine

JF - Computers in Biology and Medicine

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A narrative review on characterization of acute respiratory distress syndrome in COVID-19-infected lungs using artificial intelligence

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Keywords

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